Articles: urinary-bladder-therapy.
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Pudendal nerve stimulation has beneficial effects on numerous pelvic floor function impairments such as urinary and/or fecal incontinence, retention, and constipation. In preceding literature the implant technique required a fairly complex and invasive surgery, although recent advances with percutaneous placement of the lead through an introducer have made the procedure much less invasive. We performed staged procedure similar to that of sacral neuromodulation (SNM) to place tined lead near the pudendal nerve, using neurophysiological guidance that allowed accurate pudendal nerve stimulation through either perineal or posterior approach. We have named this approach chronic pudendal nerve stimulation (CPNS). ⋯ Chronic pundedal nerve stimulation is feasible. Neurophysiological guidance is mandatory to place the lead near the pudendal nerve either using perineal or posterior approach. Further studies must be carried out to identify the best stimulation parameters and to verify the long term results.
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Experimental neurology · Nov 2004
Bladder and urethral sphincter responses evoked by microstimulation of S2 sacral spinal cord in spinal cord intact and chronic spinal cord injured cats.
Urinary bladder and urethral sphincter responses evoked by bladder distention, ventral root stimulation, or microstimulation of S2 segment of the sacral spinal cord were investigated under alpha-chloralose anesthesia in cats with an intact spinal cord and in chronic spinal cord injured (SCI) cats 6-8 weeks after spinal cord transection at T9-T10 spinal segment. Both SCI and normal cats exhibited large amplitude reflex bladder contractions when the bladder was fully distended. SCI cats also exhibited hyperreflexic bladder contractions during filling and detrusor-sphincter dyssynergia during voiding, neither was observed in normal cats. ⋯ However, this stimulation evoked incomplete voiding due to either co-activation of the urethral sphincter or detrusor-sphincter dyssynergia. Stimulation in the S2 dorsal horn evoked large amplitude sphincter responses. The effectiveness of spinal cord microstimulation with a single electrode to induce prominent bladder and urethral sphincter responses in SCI animals demonstrates the potential for using microstimulation techniques to modulate lower urinary tract function in patients with neurogenic voiding dysfunctions.
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Der Urologe. Ausg. A · Dec 2003
Review[Bladder dysfunction and surgery in the small pelvis. Therapeutic possibilities].
The more extensive a surgical procedure in a small pelvis, the higher the risk for the lower urinary tract with its nerve supply and nerve plexus. This concerns mainly the sympathetic chains, the parasympathetic structures and, rarely, the visceral supply of the pelvic floor. Direct trauma to the bladder and its vascular supply as well as indirect injury by displacement of the bladder need to be seriously considered. ⋯ In these cases, regular evacuation of the bladder by intermittent self-catheterisation can lead to social acceptance. Reduced bladder compliance and lowering of the urethral leak pressure point may result in stress and urge incontinence, which, according to the established rules, should be managed by physiotherapy and behaviour therapy as well as drug therapy and only in exceptional cases by surgical measures. Prevention of postoperative bladder dysfunction can be tried by tissue- and nerve-sparing surgical techniques, but is always determined by oncological aspects.
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The Journal of urology · Nov 2003
New sacral neuromodulation lead for percutaneous implantation using local anesthesia: description and first experience.
In functional urology today chronic stimulation of the sacral nerves has become one of the most accepted methods of stimulation treatment. Many studies have described the advantage of test stimulation prior to implanting the definitive system to enable effective patient selection. We studied a method aimed at improving lead anchoring by developing a self-blocking electrode with a simple placement procedure, in the process creating a 2-stage approach to full percutaneous implantation that allows a long screening period during the first temporary stimulation stage. ⋯ Our results show that the new tined anchoring system is a reliable way to allow truly minimally invasive placement of the chronic lead.